Blastocyst implantation depends on maternal expression of leukaemia inhibitory factor.

A critical point during mammalian pregnancy is the implantation of the blastocyst when the embryo attaches to the wall of the uterus. The autonomously developing preimplantation embryo then becomes dependent on the maternal environment for its continued development. Little is known about the regulation of implantation, except that a complex interaction between peptide and steroid hormones synchronizes the preparation of the uterus for implantation with the development of the embryo. Whether the implantation event is under maternal or embryonic control is also unclear (reviewed in refs 1, 2). We have previously shown that a cytokine, leukaemia inhibitory factor (LIF), is expressed in the uterine endometrial glands specifically on the fourth day of pregnancy. This burst of expression is under maternal control and always precedes implantation of the blastocyst. Here we report that transient expression of LIF in mice is essential for implantation. Females lacking a functional LIF gene are fertile, but their blastocysts fail to implant and do not develop. The blastocysts, however, are viable and, when transferred to wild-type pseudopregnant recipients, they can implant and develop to term.     

Role for sperm in spatial patterning of the early mouse embryo

Despite an apparent lack of determinants that specify cell fate, spatial patterning of the mouse embryo is evident early in development. The axis of the post-implantation egg cylinder can be traced back to organization of the pre-implantation blastocyst. This in turn reflects the organization of the cleavage-stage embryo and the animal-vegetal axis of the zygote. These findings suggest that the cleavage pattern of normal development may be involved in specifying the future embryonic axis; however, how and when this pattern becomes established is unclear. In many animal eggs, the sperm entry position provides a cue for embryonic patterning, but until now no such role has been found in mammals. Here we show that the sperm entry position predicts the plane of initial cleavage of the mouse egg and can define embryonic and abembryonic halves of the future blastocyst. In addition, the cell inheriting the sperm entry position acquires a division advantage and tends to cleave ahead of its sister. As cell identity reflects the timing of the early cleavages, these events together shape the blastocyst whose organization will become translated into axial patterning after implantation. We present a model for axial development that accommodates these findings with the regulative nature of mouse embryos.     

Mammalian neural crest cells participate in normal embryonic development on microinjection into post-implantation mouse embryos

The production of chimaeric mice by aggregating pre-implantation mouse embryos or by injection of cells into the blastocyst has been of great value in analysing the regulation of early mammalian development and in dissecting the relationships of early cell lineages. While the totipotent cells of the pre-implantation embryo can be grown in vitro and thus are readily accessible to experimental manipulation, this is not possible after the embryo has implanted into the uterus. This problem has severely hampered the analysis of cell migration and of cell lineage relationships in later stages of mammalian development. In contrast, the chicken embryo can be manipulated experimentally throughout embryo-genesis and this has made the bird a favourable system for studying patterns of cell migration in the development of higher vertebrates. In mammals, the introduction of retroviruses and haematopoietic cells has provided two means of probing post-implantation development by direct intervention. I report here that cultured neural crest cells, when microinjected into 9-day-old mouse embryos, can migrate over considerable distances and participate in normal development, and the resulting chimaeric animals show pigmentation derived from the donor cells in hair and iris. The introduction of cells into post-implantation embryos may provide the means of studying patterns of cell migration in mammalian development at a level of sophistication which so far has been restricted to the chicken system.     

静电场对小鼠胚胎发育能力的影响

首次报道哺乳动物胚胎经静电场处理后对＂细胞阻滞＂和后期发育能力的影响．结果表明，用静电场处理小鼠体外受精卵和２细胞胚胎时，对克服小鼠＂２细胞阻滞＂无显著影响．处理发育于Ｍ１６＋１００μＭＥＤＴＡ＋输卵管上皮的２细胞胚胎时，显著提高了胚胎的发育能力，最佳处理剂量的囊胚率从４２％提高到６４％，囊胚孵化率从２０％提高到４５％．     

对小鼠子宫内膜及胚胎LIF基因表达的研究

利用ＲＴ－ＰＣＲ方法,对妊娠的小鼠和非妊娠小鼠子宫内膜、妊娠的小鼠胚胎的ＬＩＦ基因表达进行了研究,孕鼠子宫内膜中存在ＬＩＦ基因的表达,３例非妊娠小鼠子宫内膜ＬＩＦ基因的表达阳性,２只小嫌胚胎中有ＬＩＦ基因的表达。     

Role of αVβ3 integrin in embryo implantation in the mouse

Integrin, a heterodimeric adhesive molecule composed of α and β subunits, can regulate cell adhesion and trafficking. Recent data have documented that, at the “implantation window” stage, α Vβ 3 integrin participates in the maternal-fetal interaction and becomes a potential marker of uterine receptivity. Furthermore, it can affect invasiveness of embryo. This work made a further study about its action mechanism. Results of indirect immunofluorescence and laser scanning confocal microscopy showed that α Vβ 3 integrin was clearly expressed in the mouse blastocyst. Injection of α Vβ 3 integrin antiserum into a uterine horn of a pregnant mouse on day 3 markedly decreased the number of embryos implanted (P < 0.001). In a co-culture model, α Vβ 3 integrin antisera at 1︰100 and 1︰200 dilutions significantly depressed the attachment and outgrowth reactions of blastocysts on monolayer of uterine epithelial cells. Analysis of correlation manifested that the inhibitory effect of α Vβ 3 integrin antiserum was dosage/dilution-dependent. Thus, α Vβ 3 integrin is an essential factor in the uterine endometrium for embryo implantation in the mouse. This integrin distinctly expressed in the mouse blastocyst at “implantation” stage affected the process of embryo implantation by route of mediating both the attachment and the outgrowth processes of blastocyst on uterine epithelial cells.     

Induction of matrix metalloproteinase-9 and -2 activity in mouse blastocyst by fibronectin-integrin interaction

Fibronectin, a major extracellular matrix, plays an important role in embryo implantation by mediating embryo adhesion and outgrowth. In this work, mouse blastocysts produced pro-matrix metalloproteinase-9, pro-matrix metalloproteinase-2 and 64 ku matrix metalloproteinase-2 when they were co-cultured with fibronectin. In contrast, mouse blastocysts did not produce these proteinases without fibronectin. Focal adhesion kinase is a fundamental molecule of integrin signaling pathway and its antisense oligodeoxynucleiotide inhibited blastocyst matrix metalloproteinases expression induced by fibronectin. The results indicated that fibronectin triggered matrix metalloproteinase-9 and -2 expression in mouse blastocyst through its integrin receptors and subsequent signaling pathway, which enhanced the synchronization of blastocyst invasiveness and uterine receptivity and ensured the accuracy of events relative to implantation in timing and spatiality.     

p21基因在小鼠胚胎发育过程中的表达

以E9日龄至E14日龄昆明种正常小鼠胚胎为材料,利用质粒扩增的、地高辛标记的基因探针在组织切片上进行DNA-mRNA分子原位杂交,研究了p21基因在小鼠胚胎发育过程中的表达.结果表明:p21基因从E10日开始参与小鼠胚胎发育,其表达特异性随着胚胎发育进程逐渐增强,与它在细胞周期中的负调控作用相一致.p21基因表达强度较稳定,与其mRNA稳定有关.     

The expression and function of VEGF at embryo implantation “window” in the mouse

Vascular endothelial growth factor (VEGF) is an endothelial cell-specific mitogen that plays a critical role in angiogenesis. Recent reports indicated that VEGF was closely involved in embryo implantation and embryonic vasculogenesis. However, very little information is available about the detailed expression and function of VEGF at implantation “window”. In this work, VEGFs were primarily present on uterine epithelial cell monolayer and blastocysts including the outgrew trophoblasts at implantation window. VEGF antibodies decreased the number of mice embryos implanted and the percentage of blastocysts with attachment and outgrowth in a co-culture model in a dose-dependant manner. These findings demonstrate that VEGF is one of the essential cytokines for embryo implanta-tion in mouse. VEGF may act as a local mediator to regulate the maternal-fetal interaction, and facilitate blastocyst implantation.     

筛选差异表达基因的方法进展

植入前胚胎差异表达基因的筛选是分离、鉴定发育相关基因的关键 ,是克隆动物发育分子机理研究的基础 .哺乳动物植入前胚胎和克隆胚胎材料的获得十分不易 ,使得筛选差异表达基因的方法在该领域的应用均受到较大的限制 .以DDRT -PCR为基础的单胚mRNA差异表达技术的建立 ,为克隆植入前胚胎发育相关基因及哺乳动物克隆胚胎发育分子机理研究提供有力的工具 ,本文将在多年研究基础上对该技术及目前筛选差异表达基因的方法进行综述 .     

Eomesodermin is required for mouse trophoblast development and mesoderm formation

The earliest cell fate decision in the mammalian embryo separates the extra-embryonic trophoblast lineage, which forms the fetal portion of the placenta, from the embryonic cell lineages. The body plan of the embryo proper is established only later at gastrulation, when the pluripotent epiblast gives rise to the germ layers ectoderm, mesoderm and endoderm. Here we show that the T-box gene Eomesodermin performs essential functions in both trophoblast development and gastrulation. Mouse embryos lacking Eomesodermin arrest at the blastocyst stage. Mutant trophoectoderm does not differentiate into trophoblast, indicating that Eomesodermin may be required for the development of trophoblast stem cells. In the embryo proper, Eomesodermin is essential for mesoderm formation. Although the specification of the anterior-posterior axis and the initial response to mesoderm-inducing signals is intact in mutant epiblasts, the prospective mesodermal cells are not recruited into the primitive streak. Our results indicate that Eomesodermin defines a conserved molecular pathway controlling the morphogenetic movements of germ layer formation and has acquired a new function in mammals in the differentiation of trophoblast.     

Effect of matrix metallo-proteinase-26 (MMP-26) during embryo implantation in the mouse

Matrix metalloproteinase-26 (MMP-26, endometase and matrilysin-2), a novel member of the MMPs family, is detected not only in the placenta and uterus, but is widely expressed in malignant tumors from different sources as well as in diverse tumor cell lines. However, the function of MMP-26 in the reproductive system has never been reported. Expression of MMP-26 in mouse embryos and the function of the MMP-26 antibody during mouse embryo implantation was examined for the first time by injecting the uterine horn, immunohistochemistry,in situ hybridization, co-culture of mouse blastocysts and uterine monolayer epithelial cells, Western blot, RT-PCR, Northern blot and zymography. Our results show that there is strong expression of MMP-26 mRNA and protein in the mouse embryo. Furthermore, the MMP-26 antibody dramatically inhibited mouse embryo implantation and significantly inhibited adhesion and outgrowth of mouse blastocysts onin vitro uterine monolayer epithelial cells. At the same time, the MMP-26 antibody inhibited the expression of integrin αV mRNA and protein in a dose-dependent manner. These data suggest that MMP-26 may play a role in some of the tissue-remodeling events associated with the invasion of the endometrium by trophoblast cells and facilitate successfully embryo implantation.     

p53基因在小鼠胚胎发育过程中的表达

以E9日龄至E14日龄昆明种正常小鼠胚胎为材料,利用质粒扩增的、地高辛标记的基因探针在组织切片上进行DNA-mRNA 分子原位杂交,研究了p53基因在小鼠胚胎发育过程中的表达.结果表明, p53基因不参与E9和E10日胚胎发育中的器官原基形成,参与器官的进一步分化成熟过程.这些器官主要有眼、脑、心、肺、脊柱和面颌骨,肝组织的发育与其无关; p53基因一方面参与胚胎发育中的细胞周期调控,另一方面也参与了某些与细胞周期无关的过程;不同的器官有不同的细胞周期调控机制.     

Regulation of mouse blastocyst adhesion,outgrowth and matrix metalloproteinase—2 by focal adhesion kinase

The interaction of extracellular matrix-integrin markedly influences the adhesion,outgrowth,differentiation and expression of serine proteinases by the blastocyst,so it is regarded as a vital factor in blastocyst implantation.Although the mechanism of extracellular interactions between extracellular matrix and integrins has been well elucidated,the roles of the signaling molecules in the extracellular matrix-integrin signal transduction pathway in blastocyst implantation are unknown.This limits the understanding of blastocyst implantation and ECM-integrin signal transduction pathway.In the present study,in vitro blastocyst culture and indirect immunocytochemistry,matrix metalloproteinases(MMPs) zymography and antisense oligodeoxynucleotide(ODN) were used to investigate the expression of a fundamental molecule of integrin-dependent signal transduction pathways,focal adhesion kinase(FAK),in mouse blastocysts and its influence on mouse blastocyst adhesion,outgrowth and MMP-2.The results showed that mouse blastocysts expressed FAK.FAK protein was clustered in the peripheral migrating trophoblast cells and dispersed in the central area of blastocyst outgrowth.Fibronectin triggered pro-MMP-2 and 64kD MMP-2 activities.The antisense ODN to FAK attnuated pro-MMP-2 and 64kD MMP-2 activites which decreased abruptly and tended to disappear with increasting concentrations of the antisense ODN.Both mouse blastocyst adhesion and outgrowth on fibronectin were also influenced by the antisense ODN.Up to 20μg/mL of the antisense ODN concentration,the adhesion and out-growth rates were decreased in a dose-dependent manner.The results indicated that FAK influenced mouse blastocyst adhesion,outgrowth and MMP-2 activity by intracellular signal transduction.In other words,FAK regulates mouse implantation in terms of blastocyst adhesive and invasive abilities.     

Regulation of mouse blastocyst adhesion,outgrowth and secretion of matrix metalloproteinase-2 by cGMP and nitric oxide <Emphasis Type="Italic">in vitro</Emphasis>

Nitric oxide (NO) is a multifunctional messenger molecule produced through oxidation of L-arginine to L-citrulline by enzyme NO synthase (NOS). In the current study, mouse blastocysts were cultured in the different media, and the implantation capacity of blastocyst was evaluated by evaluating the percentage of embryos adhesion and outgrowth after culture for 12, 24 or 48 h. Matrix metalloproteinase-2 (MMP-2) mRNA was detected by RT-PCR, and MMP-2 protein was detected by gelatin zymography. Inhibition of blastocyst adhesion and outgrowth was observed in embryo cultured with 500 μmol/L NOS inhibitor N^G-mono-methyI-L-arginine (L-NMMA) alone; however, 100 μmol/L S-nitroso-N-acetylpenicillamine (SNAP), a NO donor, and 20μmol/L cGMP analogue, 8-Br-cGMP could block this inhibition. The expression and production of MMP-2 in the blastocysts were suppressed by L-NMMA, and SNAP or 8-br-cGMP could reverse this suppression. These results suggest that NO induces embryo implantation by cGMP signaling pathway.     

P16基因在小鼠胚胎发育过程中的表达

以E9 d龄至E14 d龄昆明种正常小鼠胚胎为材料，利用质粒扩增的、地高辛标记的基因探针在组织切片上进行DNA-mRNA分子原位杂交，研究了p16基因在小鼠胚胎发育过程中的表达.结果表明：p16基因不参与E9和E10 d胚胎发育中的器官原基形成，参与器官的进一步分化成熟过程，这些器官主要有眼、脑、心、肺、脊柱和面颌骨，肝组织的发育与其无关；不同的器官有不同的细胞周期调控机制.     

Thymus medulla consisting of epithelial islets each derived from a single progenitor.

The thymus is organized into medullary and cortical zones that support distinct stages of T-cell development. The formation of medulla and cortex compartments is thought to occur through invagination of an endodermal epithelial sheet into an ectodermal one at the third pharyngeal pouch and cleft, respectively. Epithelial stem/progenitor cells have been proposed to be involved in thymus development, but evidence for their existence has been elusive. We have constructed chimaeric mice by injecting embryonic stem (ES) cells into blastocysts using ES cells and blastocysts differing in their major histocompatibility complex (MHC) type. Here we show that the MHC class-II-positive medullary epithelium in these chimaeras is composed of cell clusters, most of which derive from either embryonic stem cell or blastocyst, but not mixed, origin. Thus, the medulla comprises individual epithelial 'islets' each arising from a single progenitor. One thymic lobe has about 300 medullary areas that originate from as few as 900 progenitors. Islet formation can be recapitulated after implantation of 'reaggregated fetal thymic organs' into mice, which shows that medullary 'stem' cells retain their potential until at least day 16.5 in fetal development. Thus, medulla-cortex compartmentalization is established by formation of medullary islets from single progenitors.     

小鼠四倍体半克隆胚胎发育研究

半克隆(Semi-Cloned)胚胎是通过注射体细胞核到未去核的卵母细胞中产生的。在半克隆胚胎中,体细胞被用来作为精子的替代物。然而,由于异常的染色体分离,构建的半克隆胚胎在激活后形成了非整倍体而导致胚胎发育受到严重影响,不能发育到期。本研究通过抑制小鼠半克隆胚胎在激活过程中染色体数目减半,避免非整倍体胚胎形成,研究四倍体半克隆(TetraploidSemi-cloned,TSC)胚胎的发育和体细胞核的掺入对胚胎发育的影响。结果显示,TSC胚胎的体外发育率显著高于二倍体半克隆胚胎,与正常受精卵及孤雌激活对照无显著性差异,但TSC胚胎的细胞数在桑椹胚和囊胚期比正常二倍体受精胚胎和孤雌激活胚胎少。通过Oct-4染色发现,TSC胚胎囊胚期内细胞团(InnerCellMass,ICM)细胞很少或者没有。移植63个四倍体半克隆胚胎到3只假孕母鼠体内,得到20个胎盘,但没有得到胎儿。组蛋白乙酰化和DNA甲基化检测显示,部分TSC胚胎在囊胚期没有形成正常受精胚胎在ICM和滋养外胚层(Trophectoderm,TE)之间的差异分布。TSC胚胎的基因表达不依赖于细胞分裂次数而依赖于发育时间。虽然TSC胚胎避免了二倍体半克隆胚胎形成非整倍体现象,但由于TSC胚胎没有ICM细胞或ICM细胞很少,所以只能形成胎盘而不能形成胎儿。本实验第一次较为全面地研究了TSC胚胎的发育,同时也为研究体细胞核再程序化、基因打靶技术提供了一种新的途径。